Author: "Aleksei Arkadevich Smagin"

Damir Maratovich Valeev, graduated from Ulyanovsk State University; Postgraduate Student at the Department of Telecommunication Technologies and Networks of Ulyanovsk State University; an author of articles in the field of cryptography and steganography. e-mail: damirivaleev@gmail.comD.M. Valeev

Aleksei Arkadevich Smagin, Doctor of Sciences in Engineering, Professor; graduated from the Radioengineering Faculty of Ulyanovsk Polytechnic Institute; Head of the Department of Telecommunication Technologies and Networks of Ulyanovsk State University; an author of articles, inventions, and manuals in the field of the development of information systems of different purposes. e-mail: smaginaa1@mail.ruA.A. Smagin

This article discusses the parameters and characteristics of a steganographic algorithm that does not distort the container, such as the versatility of application to different types of information, ease of implementation, as well as the security and payload capacity.
The purpose of this work is to determine the dependence of payload in hidden communication channel on the size of the embedded data and container. To achieve this goal, the tasks were set to determine payload at different sizes of the container and the data, as well as whether it was possible to embed secret data completely. To solve these problems, two experiments were conducted with different ratios of the size of the embedded secret and the container. The ratio of sizes of data and container for efficient embedding was determined.
Described the set-theoretic representation of model of the stegosystem for algorithm, and shown the scheme of operation of this algorithm.
Compared payload of container obtained using the proposed algorithm and the existing steganographic methods on the test images of Lenna and Baboon. The experimental results show that the proposed algorithm is more effective than most existing methods in terms of embedding capacity.

Aleksei Arkadevich Smagin, Doctor of Science in Engineering, Professor; graduated from the Radioengineering Faculty of Ulyanovsk Polytechnic Institute; Head of the Department of Telecommunication Technologies and Networks of Ulyanovsk State University; an author of articles, inventions, and manuals in the field of the development of information systems of different purposes. e-mail: smaginaa1@mail.ruA. Smagin,

Mikhail Iurevich Pesliak, graduated from the Popov Higher Naval School of Radioelectronics; Deputy Chief Designer at FRPC JSC ‘RPA ‘Mars’; an author of articles in the field of the development of computer-aided control systems. e-mail: mars@mv.ruM. Pesliak

The article deals with the engineering of monitoring of object management systems state. The objects are geographically distant from the center of monitoring that can be an enterprise-monopolist creating products and maintaining through their life cycle. We will understand the term “monitoring” to mean the inspection, analysis, and evaluation processes of the remote object state through observing this process follow-up as well as the research of the trends of the object state changes and the external factors affecting the object [1].To increase the efficiency of monitoring process, authors propose to implement an entropy approach allowing to examine and control the time for its implementation and the time when telecommunication channel is busy. From the source [2], the entropy is interpreted as a measure of the system uncertainty that can have a different amount of information. The introducing of the entropy evaluation of the request-response pair during a monitoring session allows forming the requestresponse sequence and reduce their length.To achieve stated objectives, the authors consider the proposed mathematical model of the entropy monitoring process as a directed multi-level graph that is built on the basis of the Markovian chain and that allows to describe the monitoring conditions and the separate stages of the monitoring process. The graph considers the probabilistic characteristics of requests and responses. The main feature of the model is the direction of its practical application. The model is oriented for the analysis of exceptions in which the remote objects can operate. It requires the interactive operation mode of the monitoring system should be provided. The model allows to consider the options of monitoring implementation from the perspective of queueing systems as well as within closed local area networks.

Aleksei Arkadevich Smagin, Ulyanovsk State University, Doctor of Science in Engineering, Professor; graduated from the Faculty of Radioengineering of Ulyanovsk Polytechnic Institute; Head of the Department of Telecommunication Technologies and Networks of Ulyanovsk State University; an author of articles, inventions, and monographs in the field of information system development of different purposes. [e-mail: smaginaa1@mail.ru]A. Smagin,

Iulia Aleksandrovna Radionova, Federal Research-and-Production Center Joint Stock Company ‘Research-and-Production Association ‘Mars’, Candidate of Science in Engineering; graduated from the Faculty of Mathematics and Mechanics of Ulyanovsk State University; finished her postgraduate study at Ulyanovsk State Technical University; Lead Programming Engineer at FRPC JSC ‘RPA ‘Mars’; an author of articles in the field of automated workflow systems, intelligent technical documentation storages, and statistical analysis of supplier appraisal. [e-mail: julia-owl@mail.ru]I. Radionova,

Sergei Aleksandrovich Karpaev, Federal Research-and-Production Center Joint Stock Company ‘Research-and-Production Association ‘Mars’, Postgraduate Student; graduated from Ulyanovsk State Technical University; Production Control System Engineer at FRPC JSC ‘RPA ‘Mars’; an author of articles in the field of the business software automation and short-term production planning. [e-mail: neonix3000@mail.ru]S. Karpaev

The article is devoted to the actual topic of designing route maps. At the heart of the route maps, the route for performing technological operations at the production site is laid. In the production process, production is often stopped due to imperfections in the route map, one of the reasons for which is the change of resources.In the article it is proposed to carry out the design of the technological route according to the proposed principles with the use of a two-pass two-component model as an increase in the productivity of the production process. The methodology is based on the principle of selecting the means for implementing technological operations on the basis of two interacting models, which make it possible to cover the process more fully from the point of view of resource provision and the performance of a technological operation using the example of chemical production.The proposed model allows the designer to choose the route of the technological process from the set of proposed options. An algorithm for designing and implementing a model in automated systems is presented.The offered algorithms allow to form design decisions, it gives the chance of their use for the subsequent processing and definition of efficiency.Formed by different criteria, technological routes provide many variants of the solutions obtained. The offered provides efficiency of improvement of quality of technological processes due to use of means of information support of maintenance of a set of operations close to an optimum choice of technical means of realization.

Aleksei Arkadevich Smagin, Ulyanovsk State University, Doctor of Engineering, Professor; graduated from the Faculty of Radioengineering of Ulyanovsk Polytechnic Institute; Head of the Department of Telecommunications Technologies and Networks at Ulyanovsk State University; an author of articles, inventions, and monographs in the field of different-purpose information system development. [e-mail: smaginaa1@mail.ru]A. Smagin,

Andrei Evgenevich Klochkov, Ulyanovsk State University, graduated from the Faculty of Mathematics and Information Technologies of Ulyanovsk State University, Senior Lecturer at the Department of Information Security and Management Theory of Ulyanovsk State University; experienced in of work in the field of information security from leakages through technical communication channels. [e-mail: ak@ulsu.ru]A. Klochkov,

Aleksandr Iurevich Grigorev, Ulyanovsk State University, graduated from the Faculty of Mathematics and Information Technologies of Ulyanovsk State University; Postgraduate Student at the Department of Telecommunication Technologies and Networks of Ulyanovsk State University; Software Engineer at Federal Research-and-Production Center Joint Stock Company ‘Research-and-Production Association 'Mars'; an author of articles in the field of statistical testing of random sequences. [e-mail: als73@mail.ru]A. Grigorev

The article considers researches of ability of using digital position monitoring encoders for generation of bit random sequences used in cryptography. In order to create hardware generator, gyroscope and accelerometer sensors installed on three mobile devices are used. The source of randomness is the regular change of sensor data due to movement in space, minor fluctuations and vibrations of a device during operation. The article suggests the methods of position sensor data processing for creating bit sequences. The stages of testing and the criterion for confirmation of randomness are discussed. The NIST STS software package contains different statistical tests that are used for randomness testing of sequences. The article includes the results of the experiments of testing the sensors (accelerometer and gyroscope) of three mobile devices.

Svetlana Valerevna Lipatova, Ulyanovsk State University, Candidate of Engineering, Associate Professor; graduated from the Faculty of Information Technologies and Telecommunications of Ulyanovsk State University; Lecturer at the Department of Telecommunications Technologies and Networks of Ulyanovsk State University; an author of articles in the field of multipurpose information system development. [e-mail: dassegel@mail.ru]S. Lipatova,

Aleksei Arkadevich Smagin, Ulyanovsk State University, Doctor of Engineering, Professor, Head of the Department of Telecommunications Technologies and Networks at Ulyanovsk State University; graduated from the Radioengineering Faculty of Ulyanovsk Polytechnic Institute; an author of articles, inventions, and monographs in the field of different-purpose information systems development. [e-mail: smaginaa1@mail.ru]A. Smagin,

Aleksandr Mikhailovich Firulin, Junior Consultant-Developer of the Regional Center of IBS “Ulyanovsk”, Postgraduate Student; graduated from the Faculty of Mathematics and Information Technology of Ulyanovsk State University by the specialty in Information Systems and Technologies; Junior Consultant-Developer of the Regional Center of IBS “Ulyanovsk”; an author of articles in the field of information systems and technologies. [e-mail: afirulin@mail.ru]A. Firulin,

Peter Ivanovich Smikun, FRPC JSC ‘RPA ‘Mars’, Candidate of Engineering; graduated from the Faculty of Automation and Computer Engineering of Taganrog Radioengineering Institute; Chief Designer, Head of the Research Department at FRPC JSC ‘RPA ‘Mars’; an author of a number of articles in the field of automated control system software development. [e-mail: smikun@mail.ru]P. Smikun,

Vadim Gennadevich Zakharov, FRPC JSC ‘RPA ‘Mars’, Deputy Chief Designer at FRPC JSC ‘RPA ‘Mars’, graduated from the Faculty of Information Technologies and Telecommunications at Ulyanovsk State University; specializes in the field of special-purpose automated control system software development; an author of scientific papers in the field of different-purpose information systems development. [e-mail: vg.zaharov@gmail.com]V. Zakharov

The article considers a method for constructing a compact storage system of data used for analytical processing. The authors describe all stages of constructing system: from analysis of task in a particular subject area to implementation. Particularly, the question of organizing data, downloading them from various sources, purification, compression, restoration, and analytical processing are discussed in this article. In order to clarify some points, the method is shown as business process diagram. The proposed method can be used in different subject areas for solving a wide range of tasks. The authors investigate the possibility of using the method for estimating the reliability of hardware-software equipment. This article is intended for specialists in data storage and analytical data processing.

Aleksei Aleksandrovich Bulaev, Ulyanovsk State University, Postgraduate Student; graduated from the Faculty of Mathematics and Information Technology of Ulyanovsk State University in the specialty of Information Systems and technologies; Engineer at the Department of Telecommunications Technologies and Networks of Ulyanovsk State University; an author of articles in the field of information systems and technologies. [e-mail: mail@bulalex.ru]A. Bulaev,

Svetlana Valerevna Lipatova, Ulyanovsk State University, Candidate of Engineering, Associate Professor; graduated from the Faculty of Information Technologies and Telecommunications of Ulyanovsk State University; Lecturer at the Department of Telecommunications Technologies and Networks of Ulyanovsk State University; an author of information systems and technologies. [e-mail: dassegel@mail.ru]S. Lipatova,

Aleksei Arkadevich Smagin, Ulyanovsk State University, Doctor of Engineering, Professor, Head of the Department of Telecommunications Technologies and Networks at Ulyanovsk State University; graduated from the Faculty of Radioengineering of Ulyanovsk Polytechnic Institute; an author of articles, inventions, and monographs in the field of different-purpose information systems development. [e-mail: smaginaa1@mail.ru]A. Smagin

The structure and content of the CASE-tool allowing to implement a given 3D GIS functionality are considered. In the process of using CASE-tools, variants of design solutions are generated. Structural and functional models and diagrams of interfaces interaction between open source libraries and personal developments, which do not have any analogues among libraries, are created for the development of 3D GIS. Header files generation on the selected programming language is performed in order to realize the system. The core can be set off in 3D GIS. It includes four major components providing a basic set of functions implemented in the majority of 3D GIS. The developed models such as the situation description model, the open source libraries description model, the projections model, the broker model, and the compositional model increase the efficiency of the developed 3D GIS components. The models proposed in the article are related to the three stages of the 3D GIS life cycle.

Valentin Georgievich Tipikin, FRPC JSC ‘RPA ‘Mars’, graduated from Ulyanovsk Polytechnic Institute in a specialty of computers, devices, and facilities; Deputy Director General for Science at FRPC JSC ‘RPA ‘Mars’ and Chief of Complex R&D Department; an author of articles in the field of information technologies and integration of automated control systems. [e-mail: mars@mv.ru]V. Tipikin,

Petr Ivanovich Smikun, FRPC JSC ‘RPA ‘Mars’, Candidate of Engineering; graduated from the Faculty of Automation and Computer Science of Taganrog Radiotechnical Institute; Chief of the Research Department at FRPC JSC ‘RPA ‘Mars’; an author of articles in the field of automated control systems software development. [e-mail: smikun@mail.ru]P. Smikun,

Mikhail Iurevich Pesliak, FRPC JSC ‘RPA ‘Mars’, graduated from the Faculty of C2 Systems of Popov Higher Naval Radio Engineering School; Deputy Chief of the Research Department and Deputy Designer at FRPC JSC ‘RPA ‘Mars’; an author of articles in the field of automated control systems development. [e-mail: mars@mv.ru]M. Pesliak,

Aleksei Arkadievich Smagin, Ulyanovsk State University, Doctor of Engineering, Head of the Department of Telecommunications Technologies and Networks at Ulyanovsk State University; graduated from the Faculty of Radioengineering of Ulyanovsk Polytechnic Institute; an author of more than 200 articles, inventions, and monographs in the field of different purpose information system development. [e-mail: smaginaa1@mail.ru]A. Smagin,

Svetlana Valerevna Lipatova, Ulyanovsk State University,Candidate of Engineering, Associate Professor ; graduated from the Faculty of Information Technologies and Telecommunications of Ulyanovsk State University; Lecturer at the Department of Telecommunication Technologies and Networks of Ulyanovsk State University; an author of articles , inventions, and a monograph in the field of multipurpose information system development.[e-mail: dassegel@mail.ru]S. Lipatova

The article deals with the approach to the creation of network-centric control system of condition of products produced by the original equipment manufacturer and operated on the distant sites. The organization of interaction between the center (manufacturer) and the consumer that serves as the basis for the creation of network-centric structure is proposed. The ability of high-quality control of events on sites is shown by giving an example of remote control of failures and operating products troubles. This leads to the increasing of the product operation efficiency and gives an opportunity for developers to upgrade products faster due to the fast feedback. The structure, the architecture, the general algorithm of functioning, and the description of general mathematical model of software product maintenance and functioning reliability evaluation system are considered. The proposed solutions are implemented as a software package that was used for computing experiment and the confirmation of the discussed approach practical application.

Aleksandr Iurievich Krainov, Ulyanovsk State University, Post-graduate student at the Department of Telecommunications Technologies and Networks at Ulyanovsk State University; graduated from the Faculty of Mathematics and Information Technologies at Ulyanovsk State University; interested in intelligent data analysis, text processing in the natural language, and software architecture. [e-mail: kralyu@mail.ru]A. Krainov,

Aleksei Arkadevich Smagin, Ulyanovsk State University, Doctor of Engineering, Head of the Department of Telecommunications Technologies and Networks at Ulyanovsk State University; graduated from the Faculty of Radio-Engineering of Ulyanovsk Polytechnic Institute; an author of more than 200 articles, inventions, and monographs in the field of different-purpose information system development. [e-mail: alsmagin@ulsu.ru]A. Smagin

The article presents an approach to software bug identification based on log stream analysis via complex event processing. The basis of the approach is the message sequences analysis indicating the software problems by means of the complex event processing methods. A layout system of collecting and classifying software protocols is designed on the basis of a software agent and a complex event processing system of JBoss Drools Fusion. The results prove that most errors can be classified via automatically generated rules. The developed tools provide a rebuilding of the reaction algorithms to the error emerging.

The article deals with an approach to generation of threat models, ways of screening of threats and scenarios of their
implementation as well as calculation indices of efficiency of integrated safety system for oil-product stores. It also shows
their possible use ways when creation of computer-aided system for oil-base protection.

The article suggests a heterogeneous graph with four node types which are organized by layers, to be used as a design method of production knowledge base of expert sys-tem. It also deals with an algorithm of production graph creation and formalization of typical situations.

The article deals with a procedure for development of computer-aided SOA-based systems, which results from system approach principles, is characterized by universality, independence from Customer's hardware and software platform and feasible adaptation to subject domain, and ensures quality of computer-aided system software in accordance with user's requirements within a given time period and a pre-calculated estimate.

The article gives an account of a principle of data translation via communications channels, which implements an idea of compression and simultaneous jam-immunity achievement. It defines a probability of conditions when the effect is achievable.